The impact of sterilization upon extracellular matrix hydrogel structure and function

Lisa J. White , Timothy J. Keane , Adam Smoulder , Li Zhang , Arthur A. Castleton , Janet E. Reing , Neill J. Turner , Christopher L. Dearth , Stephen F. Badylak
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引用次数: 15

Abstract

Extracellular matrix (ECM) hydrogels represent a growing subset of injectable biomaterials for tissue engineering and regenerative medicine applications. Whilst two-dimensional scaffolds composed of ECM have been in routine clinical use for decades, the clinical translation of ECM hydrogels has been limited to date. Evaluation of the stability and function of ECM hydrogels after sterilization and storage is necessary to advance therapeutic use of these materials. In the present study, a new form of ECM material, specifically, ‘lyophilized digest’ was introduced to mitigate potential storage issues and investigate the effects of sterilization. Both ECM powders and lyophilized digests were subjected to sterilization by gamma irradiation, electron beam irradiation, ethylene oxide and supercritical carbon dioxide prior to hydrogel formation. The efficacy and effect of sterilization upon mechanical properties, macrophage response and stem cell chemotaxis was determined. Independent of the form of ECM exposed to sterilization, irradiation at 30 kGy altered ECM properties and inhibited subsequent gelation. Interestingly, the form of the ECM exposed to sterilization had a dramatic impact upon hydrogel rheological properties. Hydrogels formed from sterilized powders had reduced mechanical properties whereas hydrogels formed from sterilized lyophilized digest had mechanical properties equivalent to the non-sterilized control. Sterilization did not affect the bioactivity of ECM hydrogels as measured by stem cell chemotaxis and macrophage response. Together these data provide practical insight required for the translation of ECM based hydrogels.

Abstract Image

灭菌对细胞外基质水凝胶结构和功能的影响
细胞外基质(ECM)水凝胶代表了组织工程和再生医学应用中可注射生物材料的一个不断增长的子集。虽然由ECM组成的二维支架已经在常规临床应用了几十年,但迄今为止ECM水凝胶的临床翻译仍然有限。评价ECM水凝胶在灭菌和储存后的稳定性和功能对于促进这些材料的治疗使用是必要的。在本研究中,引入了一种新形式的ECM材料,特别是“冻干消化”,以减轻潜在的储存问题并研究灭菌的影响。在形成水凝胶之前,ECM粉末和冻干消化液都经过伽马辐照、电子束辐照、环氧乙烷和超临界二氧化碳的灭菌。研究了灭菌对机械性能、巨噬细胞反应和干细胞趋化性的影响。与灭菌后ECM的形式无关,30 kGy的辐照改变了ECM的性质并抑制了随后的凝胶化。有趣的是,暴露于灭菌条件下的ECM的形式对水凝胶的流变性能产生巨大的影响。由灭菌的粉末形成的水凝胶的机械性能降低,而由灭菌的冻干消化物形成的水凝胶的机械性能与未灭菌的对照相当。通过干细胞趋化性和巨噬细胞反应测量,灭菌不影响ECM水凝胶的生物活性。总之,这些数据为基于ECM的水凝胶的翻译提供了实际的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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